KR20140123086A - Systems and methods for enabling stations to connect to wireless hotspots using non-unicode service set identification information - Google Patents

Abstract

The present application is directed to systems and methods for enabling stations to connect to wireless hotspots using non-Unicode service set identification information. More particularly, the present teachings are based on platforms and techniques for enabling the specification of the character set used by a wireless router or other WiFi access point to broadcast available sets of services to wireless devices within the range of that access point Lt; / RTI > The problem with the prior art is that Android-based phones can not represent the exact service set identification SSID name of the wireless router in the scan window of the phone for WiFi routers which are composed of SSID data in languages other than English. The reason for the display of "junk" characters for Chinese or other languages is not because the Android graphical user interface does not support Chinese characters. Instead, an important part of the difficulty lies in the way that the processing of SSID information is handled in existing Android operating systems. More specifically, the Android operating system is not notified of the encoding format in which the SSID name is encoded, since the SSID information is always assumed to be encoded in Unicode / UTF-8 code format. The problem is that the character set information 120 indicating or encoding the type of character set formatting or encoding used to broadcast the SSIE information element (IE) 106 is included in the beacon information 104 itself It is solved by the application. Thus, each smartphone can receive, decode, and display information about the access point regardless of whether the SSID IE is encoded in Unicode format or in separate character set encoding schemes.

Description

SYSTEMS AND METHODS FOR ENABLING STATIONS TO CONNECT TO WIRELESS HOTSPOT USING NON-UNICODE SERVICE SET IDENTIFICATION INFORMATION BACKGROUND OF THE INVENTION [0001] The present invention relates to systems and methods for enabling stations to connect to wireless hotspots using non-

This application is related to U.S. Provisional Application No. 61 / 595,291, entitled " Systems and Methods for Enabling Stations to Connect to Wireless Hotspots Using Non-Unicode Service Set Identification Information ", filed February 6, The entire contents of which are incorporated herein by reference.

These teachings are directed to systems and methods for enabling stations to connect to wireless hotspots using non-Unicode service set identification information. More specifically, the present teachings to make it possible to broadcast a standard (specification) of a character set being used by the wireless router or other WiFi ^TM access point is an available set of services to the wireless devices within range of the access point Platforms and techniques.

Observation is that about the connection to the wireless WiFi ^TM router that broadcasts a specific language, hotspot, or other access points (AP), have a common potential problem with the smart phones based on Android ^TM operating system or other systems exist . One problem is that in the scan window of the WiFi ^TM routers or other access points where the Android ^TM -based phones or other devices are configured with service set identification (SSID) data in languages other than English, the correct SSID The name can not be represented. These alternative languages may or may not include languages such as Chinese, Indian, Spanish, and the like. In itself, this means that there are two co-located APs, for example each consisting of a unique Chinese SSID, and that a user of a smartphone or other device is connected to one of the two co-located APs If you want to do this, it means that the user does not have a basis for selecting one to connect by just looking at the scan window of the smartphone's graphical user interface (GUI).

The reason for this difficulty is that existing smart phones or other devices will display unintelligible or junk characters instead of the intended Chinese characters that display the SSID information in that language. To make matters worse, even though the user guesses and selects one of the access points to connect to, the smartphone typically can not establish a connection with the selected router or hotspot. When the SSID is composed of Chinese, Indic, Spanish, etc., some smartphones can not recognize or scan the access point at all. This is an important limitation of smartphones in terms of many users because, as mentioned above, smartphones that are expected to connect with any WiFi ^TM hotspot in the world will not be able Because when you try to connect to those hotspots you can actually disable the smart phone's full WLAN feature.

For smartphones based on the Android ^TM operating system, the reason Android ^TM phones display "junk" characters for Chinese or other languages is that the Android ^TM graphical user interface powered by or supported by the Java ^TM framework (GUI) does not support Chinese characters. Instead, an important part of the difficulty lies in the way in which the processing of SSID information is handled in the existing Android ^TM operating system and related logic. More specifically, the Android ^TM framework, which includes a supplicant module used to establish connections to hotspots, fully knows the encoding format in which the SSID name is encoded in beacon frames broadcast by the access point can not do it. Instead, smartphones based on the existing Android ^TM operating system just and always assume that the SSID information delivered to them is in Unicode (UTF-8 code) format. This default processing of character sets results in anomalous behavior when the SSID is encoded in a coding format other than Unicode. As described, wireless routers or other access point devices may be encoded in non-Unicode formats in many areas of the world, including other locations as described in China.

In order to consider the existing SSID format used by the smart phones to connect to the ^TM WiFi access point, the SSID information element is Id: are set forth in the SSID information element is identified by a 0 in the structure illustrated in Fig. The SSID IE shown is mandated by industry standards published by the Institute of Electrical and Electronics Engineers, or "IEEE. &Quot; In accordance with this SSID IE defined by the IEEE standards, the only important information to convey is the SSID name and the length of the SSID. There is no additional information available to help identify the character set, associated language or other extended characteristics of the ^WiFiTM access point.

Similarly, there can be considered a scenario in which there are two access points that transmit and notify their SSIDs, which may be in English and Chinese, respectively, within the local broadcast range. As expected, the SSID IEs broadcast SSIDs, whereas the English SSIDs are encoded according to the ASCII code set, while the Chinese SSIDs can be encoded according to the official GB (Guo Biou) code set promulgated for Chinese character processing .

A smartphone supplicant module that interfaces between the Java ^TM framework and the underlying WLAN driver and other transceiver logic receives these two SSID IEs from the WLAN interface. The supplicant module passes both on the Android ^TM graphical user interface (GUI) framework. The GUI framework that is handling the responsibility of what will be displayed in a properly decode the SSID name and it WiFi ^TM scan window or other display of the smartphone. However, it is assumed to be a UTF-8 compatible code in which a Chinese SSID encoded with an individual GB code is rendered, causing the Chinese SSID to be decoded incorrectly by the Android ^TM Java ^TM frame, Assuming that the information is available in UTF-8 format, it tries to decode the GB code.

This incompatibility causes unintelligible or "junk" characters to be displayed in the device's scan window. In contrast, because the UTF-8 values for ASCII-based characters are the same, the scan window accurately represents the English SSID on the smartphone.

If an attempt has been made to manage the problem for Chinese or other non-English SSIDs other than the conventional ASCII set, the approach would allow the supplicant module and Java ^TM framework module installed on the smartphone to use the ASCII Will require very complex and possibly unreliable decoding logic to identify whether the GB code or access point is encoded in any other encoding scheme that can be used. It can be remembered that there is no guideline specified by the IEEE for access point manufacturers to encode the SSID in any particular coding format. This lack of standardization leads to possible decoding of the access point character set by the smartphone itself, which is much more difficult at the supplicant / framework level.

It may be desirable to provide systems and methods for enabling stations to connect to wireless hotspots using non-Unicode service set identification information, where the access point may send an SSID It is possible to systematically share which coding scheme is used for the character set used for the character set. This information can be passed to other logic that can correctly and reliably parse the SSID based on the Android ^TM operating system, the Java ^TM framework, and / or various different character coding schemes, ≪ / RTI > provides visibility to ^WiFiTM networks.

The accompanying drawings, which are incorporated in and form a part of this specification, illustrate embodiments of the present teachings and, together with the description, serve to explain the principles of the present teachings.
Figure 1 illustrates a service set information element as used in known WiFi ( ^TM) systems.
2 illustrates an example of an overall wireless ^WiFiTM network in which systems and methods for enabling stations to connect to wireless hotspots using non-Unicode service set identification information, according to various embodiments do.
FIG. 3 illustrates the features of an individual smartphone or other WiFi ( ^TM) station according to various embodiments.
4A-4C illustrate various character set encoding schemes that may be used at stations to connect to wireless hotspots using non-Unicode service set identification information, according to various embodiments, wherein the SSID IE structure < RTI ID = Is expanded according to these teachings.
Figures 5A and 5B illustrate possible formats that may be adapted to allow stations to connect to wireless hotspots using non-Unicode service set identification information, according to various embodiments, where vendor-specific ) IE is appended to a beacon frame that can carry character set encoding information.
FIG. 6 illustrates overall character set encoding operations that may be used to configure stations to connect wireless hotspots using non-Unicode service set identification information, in accordance with various embodiments.
FIG. 7 illustrates exemplary hardware, software, and other resources that may be used to enable stations to connect wireless hotspots using non-Unicode service set identification information, according to various embodiments.

Embodiments of the present teachings relate to systems and methods for enabling stations to connect using non-Unicode service set identification information. More specifically, embodiments generate native character set information and embed in beacon information broadcast by wireless routers and / or other access points in WiFi ( ^TM) and / or other wireless networks. Lt; RTI ID = 0.0 > and / or < / RTI > In accordance with aspects, the identification of the character set used by the access point and / or the associated language may be inserted into the SSID information elements and / or otherwise provided to one or more smartphones within the operating range of the wireless device and / And is constructed with extended encoding schemes transmitted by an access point that broadcasts to stations. Each receiving smartphone or other station may be configured to position and decode the embedded character set information in the beacon in order to allow the user to view and select the access points in their intended operating language. This can be achieved regardless of whether the corresponding character set and / or language is encoded in Unicode format, or other formats. As a result, there is enhanced portability, reliability, and availability of WiFi router ^TM and operations can be achieved.

Reference will now be made in detail to exemplary embodiments of the present teachings, which are illustrated in the accompanying drawings. Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or like parts.

Figure 2 illustrates an overall network environment 100 in which systems and methods for enabling stations to connect to wireless hotspots using non-Unicode service set identification information, in accordance with aspects . In aspects such as those shown, the access point 108 may broadcast the wireless network signal to a set of stations 102 within range. In aspects, the access point 108 may comprise or be a wireless router, hub, extender and / or other network access point, and in embodiments, may include IEEE standards 802.11b, 802.11g, 802.11n , and / or other conventional or may be configured to operate using the WiFi ^TM wireless standard is specified by the next standard. In the aspects, when acting as a ^TM WiFi access point, the access point 108, for example, it may operate in the 2.4 GHz frequency band. However, in implementations, it will be appreciated that other radio access standards, channels, protocols and / or frequencies may be used.

In aspects, the individual devices or stations in the set 102 of station WiFi ^TM-equipped smart phone, a touch pad device, a media player device, a GPS (global positioning system) device, and / or other devices, or a network-in Or any wireless-network enabled device such as an enabled platform. In aspects and as shown in FIG. 3, each individual station 118 in the set of stations 102 may be comprised of one or more hardware, software, services, and / or other resources. In aspects such as those depicted, an operating system 112, e.g., a display (not shown), which may be a graphical user interface (GUI) of the operating system 112, A station 118 including a base station 110, and a radio frequency antenna 150 (or multiple antennas) may include various hardware, software, and other resources. In aspects, the operating system 112 may include a mobile device operating system, such as an Android ^TM operating system, available from Google Inc. of Mountain View, CA, or the like. In aspects, the operating system 112, as described, may include a graphical user interface (GUI) as well as file management, power management, communications, security and / or other logic to operate each station 118, services And / or resources. In accordance with aspects, each individual station 118 similarly includes a supplicant module 114 that is used to establish connections to applications, services, logic and / or access points and / or other channels. And the like. Similarly, each of the individual stations 118 may include a Java ^TM framework 116 that is used to support the execution of Java ^TM -based services and applications on the station 118.

In aspects, any one or more of the sets of stations 102 may generally be available to be connected to or connected to the access point 108 at one time. Generally, and as illustrated in FIG. 2, the access point 108 may broadcast beacon information 104 to a set of stations 102. The beacon information 104 typically includes a name, a connection type, occupied and / or available channels, and other network information and services provided by the access point 108 to any station within its wireless coverage range (SSID) information element (IE) 106 that indicates which service set to display. In accordance with aspects, beacon information 104 that is broadcast by an access point 108 configured in accordance with the teachings herein generally includes not only the standard SSID IE 106 but also the SSID IE 106 and / And character set information 120 that indicates or encodes the type of character set formatting or encoding used to broadcast other information. Each smartphone or other station 118 in the set of stations 102 may determine whether the SSID IE 106 is in the Unicode format and / or in the beacon information 104 by including the original character set information 120 in the beacon information 104 itself. Decode, and display that information for the access point 108, whether stored or encoded in other proprietary or distinct character set encoding schemes.

In accordance with aspects, character set information 120 that identifies a character set encoding scheme may be embedded in beacon information 104 in various manners in accordance with various embodiments. However, it will be appreciated that all implementations allow the use of non-Unicode or suitability character sets by the access point 108 and recognition of these character sets by the set of stations 102. [ More specifically and as illustrated by way of example in Figures 4A-4C, the character set information 120 may be used to add additional fields of the information element, or to remove existing fields from existing fields of the information element Can be encoded within the standard SSID IE 106 format by "borrowing " or" stealing "the selected bits.

More specifically, as shown, for example, in FIG. 4A, character set information 120 and / or portions thereof may be encoded into additional fields labeled "encoding. &Quot; The encoding field may be stored in various formats and / or lengths, such as, for example, a 1-byte or 2-byte value indicating a set of characters to be used via a lookup table and / or other reference. Depending on aspects, the character set information 120 and / or portions thereof may instead be replaced with the selected bit (s) of the existing length (L) field of the standard SSID IE 106, as shown, for example, (Which may also be referred to herein as the encoding (E) and length (L) fields, since this legacy one byte length (L) field conveys both encoding and length information). In the aspects as shown in FIG. 4B, the first two bits of the Encoding (E) and Length (L) fields are the specifications of the character set used by the access point 108 as reassignment or reinterpretation -interpret), thereby allowing four independent character sets to be specified and used.

In further implementations and as shown in FIG. 4C, the character set information 120 and / or portions thereof may alternatively be encoded in the last two bits of the encoding (E) and length (L) fields. In accordance with aspects, the use of encoding schemes or types as illustrated in Figures 4B and 4C is particularly advantageous because the total length of the SSID IE 106 is not extended to accommodate the character set information 120, Format. However, it will be appreciated that other bit combinations and / or positions may be used to encode the character set information 120, if desired.

In further aspects, depending on the implementations, the character set information 120 may also be added or specified in other positions or related information in the SSID IE 106, such as beacon information 104, May be encoded or embedded in a vendor specific information element (IE) 122 that is not included. In aspects and as illustrated for example in FIG. 5A, the seller specific information element (IE) 122 includes an element ID field, a length field, a organizationally unique identifier (OUI) field, a version field, Compatible extension (CCX), which is labeled as "Type 1 ", having an exemplary format as shown in the figure, including a separate CCX version field. In aspects and as illustrated for example in FIG. 5B, the seller specific information element (IE) 122 includes an element ID field, a length field, an organizationally unique identifier (OUI) field, and a data field RTI ID = 0.0 > "Type 2 ", < / RTI > The combination of any one or more of the fields or fields and / or other fields or combinations of the fields may include a character set used by the access point 108 and / or an SSID IE May be used in connection with the implementations shown in Figs. 5A and 5B to encode or specify the encoded data 106, which may again be identified or determined via a look-up table and / or other references.

In accordance with aspects, FIGS. 5a and implemented as illustrated in Figure 5b may be noted that benefits can be with respect to conventional ^TM WiFi access point and station hardware and the backward compatibility. This may be the case because, even in the presence of platforms equipped with encoding schemes according to these teachings, even when these devices are operating, devices constructed in accordance with existing industry standards may be used in a normal or anticipated manner As shown in FIG. More particularly, implementations that use vendor specific information element (IE) 122 have advantages over other solutions, including extension of SSID IE 106, since backward compatibility is ensured. In implementations that use vendor specific information element (IE) 122, various scenarios may be handled in a compatible or transparent manner in terms of station 108 or a user of another device. In particular, a station 118 that is not adapted or upgraded according to these teachings and / or can not parse or understand the seller specific information element (IE) 122 with encoding information is referred to as an "old station" . In contrast, a station that is adapted or upgraded to use the features of these teachings and that can parse or understand the seller specific information element (IE) 122 with character set encoding information may be referred to as a "new station. &Quot; Similarly, for access points, an access point that is not adapted or upgraded to support features that transmit merchant specific information element (IE) 122 with encoded character set information may be referred to as a "previous access point" , An access point that is adapted or upgraded to support features that transmit a merchant specific information element (IE) 122 with encoded character set information may be referred to as a "new access point. &Quot; Using these terms or references, in accordance with the embodiments illustrated in FIGS. 5A and 5B, if there is any previous station 118 that receives beacon information 104 from the new access point 108, Station 118 may safely ignore additional IEs because it does not understand its configuration.

Conversely, if there is any new station 118 that receives beacon information from the new access point 108, then the new station 118 sends the beacon information to the seller specific information element (IE) 122, as described herein It is possible to parse the location information. On the other hand, if there is a station 118 receiving beacon information 104 from the previous access point 108, then the new station 118 will still be able to perform the current operation (i.e., The manner in which it operates with the previous access point 108) remains unchanged or remains unchanged.

The access point 108 may then transmit the beacon information 104 to the access point 106 in order to pack the SSID IE 106 in the beacon information 104. For example, And beacon information 104 including character set information 120 including encoding information to serve to identify the encoding logic, character set, language, and / or other formatting or logic used by the processor 108. [ The supplicant module 114 of any of the individual receiving stations 118 may then send the correct data fields and / or fields of the beacon information 104 providing the encoded values (E.g., extended or changed fields of a standard SSID IE 106 and / or seller specific information element (IE) 122).

The supplicant module 114 may then communicate with the Java ^TM framework 116 in the current implementations that do not use the platforms and techniques described herein with configuration fields that are communicated to the Java ^TM framework 116 and / And may pass these encoding values along with the data to the Java ^TM framework 116. The Java ^占 framework 116 may then decode the raw SSID data based on the specified encoding information. In accordance with aspects, if a character set is identified, the Java ^占 framework 116 may retrieve the character from, for example, local memory or storage and / or from remote sources, and / or otherwise You can retrieve it. Accordingly, the Java ^占 framework 116 may display the SSID and / or other information to the user via the display 110 of the station 118 in a suitably decoded character set and / or language. In accordance with aspects, the Java ^TM framework 116 can only understand Unicode (UTF-8 or other) encodings so that any ultimately identified character set encoding eventually can be decoded and / or decoded into an equivalent UTF- / Or translated. The Java ^™ framework 116 of station 118 may then be displayed on a graphical user interface (GUI) screen and / or through another interface, assuming the support for the required fonts is in place 0.0 > 110 < / RTI >

In accordance with aspects, when a user attempts to connect to a particular access point 108, the Java ^TM framework 116 exchanges necessary information with the supplicant module 114 via "SET NETWORK" or other command can do. Based on the information conveyed to the supplicant module 114, the supplicant module 114 retrieves from the list of scanned access points available to the station 118 that the supplicant module 114 knows of, Lt; RTI ID = 0.0 > 108 < / RTI > Then, the supplicant module 114 is, for example, in a new connection can be sent to the person applying the frame one frame exchanged between the station and the access point at the start in accordance with WiFi ^TM standard, essentially accessible Thereby ensuring the connection of station 118 to point 108. In accordance with aspects, a user of the station 118 is thereby guaranteed to be able to successfully access the access point 108 as well as being able to view the access point 108 in the scan window in the correct language. These capabilities represent a significant improvement over non-standard language scenarios in systems where the platforms and techniques described herein are not provided.

The systems and methods discussed herein are not limited to use case scenarios of the above types or categories, but may also be used in connection activities or other operations on a wireless network (WLAN or otherwise) May be implemented in any relevant or other scenarios that are disabled or otherwise affected by the use of the set. For example, consider an access point 108 that is configured or configured to have a "hidden" state, configured with a non-English SSID. This access point 108 can not transmit beacon information 104. [ In the absence of beacon information 104, one station in the set of stations 102 that desire to access will send appropriate SSID information in an understandable encoding format and a unicast probe (not shown) in an understandable encoding format, Request (Unicast Probe Request) to the access point (108). If the station can not transmit the SSID information and the probe request encoded in the format expected by the access point 108, the requesting station will never be able to connect to the access point 108. These scenarios may also be managed by a graphical user interface (GUI) of the supplicant module 114, a smartphone or other station 118, a graphical user interface (GUI) of the smartphone or other station 118, Any WiFi ^TM driver, access point 108, and / or other network resources installed on the phone or device may be configured to include character set encodings, platforms and / or techniques as described herein. Thus, in implementations, any probe request sent by the station 118 that generates probe request frames from the access point 118 and / or other frames, as well as the beacon information 104 itself, Data, elements and / or information may include character set encoding information 120, SSID information identifying or using a precise encoding set, and / or other associated information or data.

Thus, as can be appreciated, by having inherent provisions in the fields and / or elements that specify the beacon information 104, probe request, response frame and / or other frame, character set encoding, A flexible approach to character set processing is adapted. In accordance with aspects of the present teachings, the burden of decoding character set information is avoided on services or modules of the supplicant module 114 and / or any other associated logic, or other WiFi ( ^TM) platform. This results in a robust decoding scheme that translates any desired character set codes into UTF-8, other Unicode standards and / or other protocols or standards. Thus, a less complex design for each station 118 can be achieved, while still providing robust language capabilities to the entire network environment 100. [ The platforms and techniques in accordance with these teachings also cause greater flexibility in character set decoding and similarly include fewer required dependencies when performing character processing operations. These benefits, WiFi ^TM As hotspots become more common in different parts of the world and as more users move to smartphones in areas where English is not the native language. Thus, smartphone users and users of other devices can connect to an available access point, regardless of the language in which the SSID is configured.

Figure 6 illustrates a flow diagram of character set encoding and other processing that may be performed in systems and methods for enabling stations to connect wireless hotspots using non-Unicode service set identification information, according to aspects For example. At 602, processing may begin. At 604, the access point 108 may be configured using one or more extended character set encoding schemes encoded in beacon information 104, according to various implementations of the present teachings. At 606, the access point 108 may broadcast beacon information 104, including character set encoding information 120, to a set of stations 102 within the range of the access point 108. At 608, using the identified extended encoding scheme, character set encoding and / or other types of information may be identified at the receiving station 118 (or stations).

For example, beacon information 104 may include fields and / or information elements illustrated herein that indicate the encoding of character sets in SSID IE 106 and / or vendor specific information element (IE) Fields and / or information elements. At 610, the receiving station 118 (or stations) may include, for example, a supplicant module 114, a Java ^占 framework 116, an operating system 112 and / or other software, logic, modules, Or display the SSID IE 106 of the access point 108 that broadcasts, using the service and / or the service. The SSID IE 106 and / or other information may be displayed in the character set encoding information 120, e.g., in the character set and / or language displayed in the scan window of the station 118. At 612, the access point 108 receives a user selected, authorized frame from the communication station 118 (or stations) and / or receives another "handshake " between the access point 108 and the communication station 118 ) "Or a transaction. At 614, for example, a network connection to the Internet and / or other public or private networks may be established via the selected access point 108. At 616, processing may repeat, return to a previous processing point, jump to an additional processing point, or terminate.

Figure 7 illustrates various hardware, software, and other resources that may be used in implementations to enable stations to connect wireless hotspots using non-Unicode service set identification information, according to embodiments. In the embodiments shown, the access point 108 may be a memory 144 such as an electronic random access memory, as well as a network interface such as an Ethernet ^TM and / or other wired or wireless connection to the Internet and / And a processor 142 that communicates with the processor. The processor 140 may be programmed or configured to perform character set encoding operations, network connection operations, and other operations in accordance with the teachings herein. The processor 140 may also include a radio frequency chipset (s) that may be coupled to a radio frequency antenna 152 (or multiple antennas) as well as a local data store 146, such as a local hard disk and / And wireless interface 148, such as a ^WiFiTM -compatible chipset, including associated hardware and software.

The above description is exemplary, and variations in construction and implementation may occur to those skilled in the art. While embodiments have been described in which encoding is performed in certain languages, such as Chinese, Indic, and Spanish, it will be appreciated that encoding in any desired character set, language, and / or symbolic manner may be performed . Similarly, although embodiments in which one access point 108 broadcasts to a set of stations 102 have been described, in embodiments, multiple access points 108 may communicate with one or more smart phones or other stations (S) 118 and / or stations 102 (s). Other resources described or integrated in a singular form may, in embodiments, be plural or distributed, and resources described or distributed in pluralities may be combined in embodiments. Accordingly, the scope of these teachings is intended to be limited only by the following claims.

Claims (80)

CLAIMS 1. A method of encoding character set information,
Retrieving character set information identifying a character set for an access point broadcasting a wireless beacon, the wireless beacon including a service set identification for the access point;
Identifying at least one field in the wireless beacon associated with a service set identification to encode the character set information; And
Embedding the character set information in at least one field of the wireless beacon for decoding by one or more wireless stations that receive the wireless beacon to display the character set.
A method for encoding character set information. The method according to claim 1,
Wherein embedding the character set information comprises embedding the character set information in a specified field of an information element for the service set identification.
A method for encoding character set information. 3. The method of claim 2,
Wherein embedding the character set information comprises embedding the character set information in a dedicated encoding field of an information element for the service set identification.
A method for encoding character set information. 3. The method of claim 2,
Wherein embedding the character set information comprises embedding the character set information into a specified subset of bits of the length field of the information element for the service set identification.
A method for encoding character set information. The method according to claim 1,
Wherein embedding the character set information comprises embedding the character set information in a seller specific information element.
A method for encoding character set information. 6. The method of claim 5,
The vendor-specific information element includes at least an element ID field, a length field, a systematically unique identifier field, a version field, and a Cisco- compatible type extension version field.
A method for encoding character set information. 6. The method of claim 5,
The vendor specific information element includes at least an element ID field, a length field, an organizationally unique identifier field, and a data field.
A method for encoding character set information. The method according to claim 1,
Wherein the access point comprises a wireless router,
A method for encoding character set information. 9. The method of claim 8,
The wireless router includes a WiFi (TM)
A method for encoding character set information. The method according to claim 1,
Further comprising receiving an authentication frame from the at least one station to establish a connection to the access point.
A method for encoding character set information. As a wireless system,
A wireless interface to at least one wireless station within the wireless range of the access point; And
And a processor communicating with the at least one station via the air interface,
The processor comprising:
Retrieving character set information identifying a character set for an access point broadcasting a wireless beacon, the wireless beacon including a service set identification for the access point;
Identify at least one field in the wireless beacon associated with a service set identification to encode the character set information; And
And to embed the character set information in at least one field of the wireless beacon for decoding by at least one wireless station receiving the wireless beacon to display the character set.
Wireless system. 12. The method of claim 11,
Wherein embedding the character set information comprises embedding the character set information in a specified field of an information element for the service set identification.
Wireless system. 13. The method of claim 12,
Wherein embedding the character set information comprises embedding the character set information in a dedicated encoding field of the information element for the service set identification.
Wireless system. 13. The method of claim 12,
Wherein embedding the character set information comprises embedding the character set information into a specified subset of bits of the length field of the information element for the service set identification.
Wireless system. 12. The method of claim 11,
Wherein embedding the character set information comprises embedding the character set information in a seller specific information element.
Wireless system. 16. The method of claim 15,
The vendor-specific information element includes at least an element ID field, a length field, a systematically unique identifier field, a version field, and a Cisco- compatible type extension version field.
Wireless system. 16. The method of claim 15,
The vendor specific information element includes at least an element ID field, a length field, an organizationally unique identifier field, and a data field.
Wireless system. 12. The method of claim 11,
Wherein the access point comprises a wireless router,
Wireless system. 19. The method of claim 18,
The wireless router includes a WiFi (TM)
Wireless system. 12. The method of claim 11,
Wherein the processor is further configured to receive an authentication frame from the at least one station to establish a connection to the access point.
Wireless system. As a wireless system,
Wireless interface means to at least one wireless station means within the wireless range of the access point means; And
And processor means for communicating with the at least one station via the air interface,
The processor means comprising:
Retrieving character set information identifying a character set for an access point means broadcasting a wireless beacon, the wireless beacon including a service set identification for the access point means;
Identify at least one field in the wireless beacon associated with a service set identification to encode the character set information; And
And to embed the character set information in at least one field of the wireless beacon for decoding by at least one wireless station means receiving the wireless beacon to display the character set.
Wireless system. 22. The method of claim 21,
Wherein embedding the character set information comprises embedding the character set information in a specified field of an information element for the service set identification.
Wireless system. 23. The method of claim 22,
Wherein embedding the character set information comprises embedding the character set information in a dedicated encoding field of the information element for the service set identification.
Wireless system. 23. The method of claim 22,
Wherein embedding the character set information comprises embedding the character set information into a specified subset of bits of the length field of the information element for the service set identification.
Wireless system. 22. The method of claim 21,
Wherein embedding the character set information comprises embedding the character set information in a seller specific information element.
Wireless system. 26. The method of claim 25,
The vendor-specific information element includes at least an element ID field, a length field, a systematically unique identifier field, a version field, and a Cisco- compatible type extension version field.
Wireless system. 26. The method of claim 25,
The vendor specific information element includes at least an element ID field, a length field, an organizationally unique identifier field, and a data field.
Wireless system. 22. The method of claim 21,
The access point means comprising wireless router means,
Wireless system. 29. The method of claim 28,
Wherein the wireless router comprises WiFi (TM) device means.
Wireless system. 22. The method of claim 21,
Wherein the processor means is further configured to receive an authentication frame from the at least one station means to establish a connection to the access point means,
Wireless system. A computer program product comprising a computer readable medium,
The computer-
At least one command for causing a computer to retrieve character set information identifying a character set for an access point broadcasting a wireless beacon, the wireless beacon comprising a service set identification for the access point;
At least one instruction for causing a computer to identify at least one field in the wireless beacon associated with a service set identification to encode the character set information; And
At least one command for causing a computer to embed the character set information in at least one field of the wireless beacon for decoding by one or more wireless stations that receive the wireless beacon to display the character set, / RTI >
Computer program stuff. 32. The method of claim 31,
Wherein embedding the character set information comprises embedding the character set information in a specified field of an information element for the service set identification.
Computer program stuff. 33. The method of claim 32,
Wherein embedding the character set information comprises embedding the character set information in a dedicated encoding field of the information element for the service set identification.
Computer program stuff. 33. The method of claim 32,
Wherein embedding the character set information comprises embedding the character set information into a specified subset of bits of the length field of the information element for the service set identification.
Computer program stuff. 32. The method of claim 31,
Wherein embedding the character set information comprises embedding the character set information in a seller specific information element.
Computer program stuff. 36. The method of claim 35,
The vendor-specific information element includes at least an element ID field, a length field, a systematically unique identifier field, a version field, and a Cisco- compatible type extension version field.
Computer program stuff. 36. The method of claim 35,
The vendor specific information element includes at least an element ID field, a length field, an organizationally unique identifier field, and a data field.
Computer program stuff. 32. The method of claim 31,
Wherein the access point comprises a wireless router,
Computer program stuff. 39. The method of claim 38,
The wireless router includes a WiFi (TM)
Computer program stuff. The method according to claim 1,
Further comprising at least one instruction for causing a computer to receive an authentication frame from the at least one station to establish a connection to the access point.
Computer program stuff. A method for decoding character set information,
Wherein the wireless beacon includes a service set identification for the access point encoded in the character set, the wireless beacon comprising a service set identification for the access point encoded in the character set, ;
Decoding the service set identification broadcasted by the access point based on the character set information; And
And presenting the service set identification to a user of at least one station receiving the radio beacon to select a network connection.
A method for decoding character set information. 42. The method of claim 41,
Wherein locating the character set information comprises extracting the character set information from a specified field of an information element for the service set identification.
A method for decoding character set information. 43. The method of claim 42,
Wherein locating the character set information comprises extracting the character set information from a dedicated encoding field of the information element for the service set identification.
A method for decoding character set information. 43. The method of claim 42,
Wherein the step of locating the character set information comprises extracting the character set information from a specified subset of bits of the length field of the information element for the service set identification.
A method for decoding character set information. 42. The method of claim 41,
Wherein locating the character set information comprises extracting the character set information from a seller specific information element.
A method for decoding character set information. 46. The method of claim 45,
The vendor-specific information element includes at least an element ID field, a length field, a systematically unique identifier field, a version field, and a Cisco- compatible type extension version field.
A method for decoding character set information. 46. The method of claim 45,
The vendor specific information element includes at least an element ID field, a length field, an organizationally unique identifier field, and a data field.
A method for decoding character set information. 42. The method of claim 41,
Wherein the access point comprises a wireless router,
A method for decoding character set information. 49. The method of claim 48,
The wireless router includes a WiFi (TM)
A method for decoding character set information. 42. The method of claim 41,
Further comprising transmitting an authentication frame from at least one station to establish a connection to the access point.
A method for decoding character set information. As a wireless station,
A wireless interface to at least one wireless access point within the wireless range of the wireless station; And
And a processor communicating with the at least one access point via the wireless interface,
The processor comprising:
Locating character set information identifying a character set for the access point in a wireless beacon broadcast by an access point, the wireless beacon including a service set identification for the access point encoded in the character set,
Decoding the service set identification broadcasted by the access point based on the character set information; And
And to present the service set identification to a user of the wireless station to select a network connection.
Wireless station. 52. The method of claim 51,
Wherein locating the character set information comprises extracting the character set information from a specified field of an information element for the service set identification.
Wireless station. 53. The method of claim 52,
Wherein locating the character set information comprises extracting the character set information from a dedicated encoding field of the information element for the service set identification.
Wireless station. 53. The method of claim 52,
Wherein locating the character set information comprises extracting the character set information from a specified subset of bits of the length field of the information element for the service set identification.
Wireless station. 52. The method of claim 51,
Wherein locating the character set information comprises extracting the character set information from a seller specific information element.
Wireless station. 56. The method of claim 55,
The vendor-specific information element includes at least an element ID field, a length field, a systematically unique identifier field, a version field, and a Cisco- compatible type extension version field.
Wireless station. 56. The method of claim 55,
The vendor specific information element includes at least an element ID field, a length field, an organizationally unique identifier field, and a data field.
Wireless station. 52. The method of claim 51,
Wherein the access point comprises a wireless router,
Wireless station. 59. The method of claim 58,
The wireless router includes a WiFi (TM)
Wireless station. 52. The method of claim 51,
Wherein the processor is further configured to transmit an authentication frame from the wireless station to establish a connection to the access point,
Wireless station. As a wireless station,
Means for wireless interfacing to at least one wireless access point within the wireless range of the wireless station means; And
And processor means in communication with the at least one access point means via the wireless interface means,
The processor means comprising:
Locating the character set information identifying a character set for the access point in a wireless beacon broadcast by the access point means, the wireless beacon including a service set identification for the access point means encoded in the character set -
Decode the service set identification broadcast by the access point means based on the character set information, and
And to present the service set identification to a user of the wireless station means for selecting a network connection.
Wireless station. 62. The method of claim 61,
Wherein locating the character set information comprises extracting the character set information from a specified field of an information element for the service set identification.
Wireless station. 63. The method of claim 62,
Wherein locating the character set information comprises extracting the character set information from a dedicated encoding field of the information element for the service set identification.
Wireless station. 63. The method of claim 62,
Wherein locating the character set information comprises extracting the character set information from a specified subset of bits of the length field of the information element for the service set identification.
Wireless station. 62. The method of claim 61,
Wherein locating the character set information comprises extracting the character set information from a seller specific information element.
Wireless station. 66. The method of claim 65,
The vendor-specific information element includes at least an element ID field, a length field, a systematically unique identifier field, a version field, and a Cisco- compatible type extension version field.
Wireless station. 66. The method of claim 65,
The vendor specific information element includes at least an element ID field, a length field, an organizationally unique identifier field, and a data field.
Wireless station. 62. The method of claim 61,
The access point means comprising wireless router means,
Wireless station. 69. The method of claim 68,
Wherein the wireless router means comprises WiFi (TM) device means,
Wireless station. 62. The method of claim 61,
Wherein the processor means is further configured to transmit an authentication frame from the wireless station to establish a connection to the access point means,
Wireless station. A computer program product comprising a computer readable medium,
The computer-
At least one instruction for locating character set information identifying a character set for the access point in a wireless beacon broadcast by an access point, the wireless beacon comprising: A service set identification;
At least one instruction for causing a computer to decode the service set identification broadcast by the access point based on the character set information; And
At least one instruction for causing a computer to present the service set identification to a user of at least one station receiving the radio beacon to select a network connection,
Computer program stuff. 72. The method of claim 71,
Wherein locating the character set information comprises extracting the character set information from a specified field of an information element for the service set identification.
Computer program stuff. 73. The method of claim 72,
Wherein locating the character set information comprises extracting the character set information from a dedicated encoding field of the information element for the service set identification.
Computer program stuff. 73. The method of claim 72,
Wherein locating the character set information comprises extracting the character set information from a specified subset of bits of the length field of the information element for the service set identification.
Computer program stuff. 72. The method of claim 71,
Wherein locating the character set information comprises extracting the character set information from a seller specific information element.
Computer program stuff. 78. The method of claim 75,
The vendor-specific information element includes at least an element ID field, a length field, a systematically unique identifier field, a version field, and a Cisco- compatible type extension version field.
Computer program stuff. 78. The method of claim 75,
The vendor specific information element includes at least an element ID field, a length field, an organizationally unique identifier field, and a data field.
Computer program stuff. 72. The method of claim 71,
Wherein the access point comprises a wireless router,
Computer program stuff. 79. The method of claim 78,
The wireless router includes a WiFi (TM)
Computer program stuff. 72. The method of claim 71,
Further comprising at least one instruction for causing a computer to transmit an authentication frame from the at least one station to establish a connection to the access point.
Computer program stuff.

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